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DTRSYL(3F)							    DTRSYL(3F)

NAME
     DTRSYL - solve the real Sylvester matrix equation

SYNOPSIS
     SUBROUTINE DTRSYL( TRANA, TRANB, ISGN, M, N, A, LDA, B, LDB, C, LDC,
			SCALE, INFO )

	 CHARACTER	TRANA, TRANB

	 INTEGER	INFO, ISGN, LDA, LDB, LDC, M, N

	 DOUBLE		PRECISION SCALE

	 DOUBLE		PRECISION A( LDA, * ), B( LDB, * ), C( LDC, * )

PURPOSE
     DTRSYL solves the real Sylvester matrix equation:

	op(A)*X + X*op(B) = scale*C or
	op(A)*X - X*op(B) = scale*C,

     where op(A) = A or A**T, and  A and B are both upper quasi- triangular. A
     is M-by-M and B is N-by-N; the right hand side C and the solution X are
     M-by-N; and scale is an output scale factor, set <= 1 to avoid overflow
     in X.

     A and B must be in Schur canonical form (as returned by DHSEQR), that is,
     block upper triangular with 1-by-1 and 2-by-2 diagonal blocks; each 2-
     by-2 diagonal block has its diagonal elements equal and its off-diagonal
     elements of opposite sign.

ARGUMENTS
     TRANA   (input) CHARACTER*1
	     Specifies the option op(A):
	     = 'N': op(A) = A	 (No transpose)
	     = 'T': op(A) = A**T (Transpose)
	     = 'C': op(A) = A**H (Conjugate transpose = Transpose)

     TRANB   (input) CHARACTER*1
	     Specifies the option op(B):
	     = 'N': op(B) = B	 (No transpose)
	     = 'T': op(B) = B**T (Transpose)
	     = 'C': op(B) = B**H (Conjugate transpose = Transpose)

     ISGN    (input) INTEGER
	     Specifies the sign in the equation:
	     = +1: solve op(A)*X + X*op(B) = scale*C
	     = -1: solve op(A)*X - X*op(B) = scale*C

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DTRSYL(3F)							    DTRSYL(3F)

     M	     (input) INTEGER
	     The order of the matrix A, and the number of rows in the matrices
	     X and C. M >= 0.

     N	     (input) INTEGER
	     The order of the matrix B, and the number of columns in the
	     matrices X and C. N >= 0.

     A	     (input) DOUBLE PRECISION array, dimension (LDA,M)
	     The upper quasi-triangular matrix A, in Schur canonical form.

     LDA     (input) INTEGER
	     The leading dimension of the array A. LDA >= max(1,M).

     B	     (input) DOUBLE PRECISION array, dimension (LDB,N)
	     The upper quasi-triangular matrix B, in Schur canonical form.

     LDB     (input) INTEGER
	     The leading dimension of the array B. LDB >= max(1,N).

     C	     (input/output) DOUBLE PRECISION array, dimension (LDC,N)
	     On entry, the M-by-N right hand side matrix C.  On exit, C is
	     overwritten by the solution matrix X.

     LDC     (input) INTEGER
	     The leading dimension of the array C. LDC >= max(1,M)

     SCALE   (output) DOUBLE PRECISION
	     The scale factor, scale, set <= 1 to avoid overflow in X.

     INFO    (output) INTEGER
	     = 0: successful exit
	     < 0: if INFO = -i, the i-th argument had an illegal value
	     = 1: A and B have common or very close eigenvalues; perturbed
	     values were used to solve the equation (but the matrices A and B
	     are unchanged).

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